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// Copyright (c) 2009-2021, Google LLC
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// All rights reserved.
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//
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions are met:
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// * Redistributions of source code must retain the above copyright
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// notice, this list of conditions and the following disclaimer.
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// * Redistributions in binary form must reproduce the above copyright
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// notice, this list of conditions and the following disclaimer in the
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// documentation and/or other materials provided with the distribution.
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// * Neither the name of Google LLC nor the
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// names of its contributors may be used to endorse or promote products
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// derived from this software without specific prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
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// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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// ARE DISCLAIMED. IN NO EVENT SHALL Google LLC BE LIABLE FOR ANY DIRECT,
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// INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
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// (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
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// LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
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// ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
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// SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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#ifndef UPB_DEF_HPP_
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#define UPB_DEF_HPP_
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#include <cstring>
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#include <memory>
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#include <string>
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#include <vector>
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#include "upb/def.h"
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#include "upb/reflection.h"
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#include "upb/upb.hpp"
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namespace upb {
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typedef upb_MessageValue MessageValue;
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class EnumDefPtr;
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class FileDefPtr;
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class MessageDefPtr;
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class OneofDefPtr;
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// A upb::FieldDefPtr describes a single field in a message. It is most often
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// found as a part of a upb_MessageDef, but can also stand alone to represent
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// an extension.
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class FieldDefPtr {
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public:
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FieldDefPtr() : ptr_(nullptr) {}
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explicit FieldDefPtr(const upb_FieldDef* ptr) : ptr_(ptr) {}
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const upb_FieldDef* ptr() const { return ptr_; }
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explicit operator bool() const { return ptr_ != nullptr; }
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typedef upb_CType Type;
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typedef upb_Label Label;
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typedef upb_FieldType DescriptorType;
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const char* full_name() const { return upb_FieldDef_FullName(ptr_); }
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Type type() const { return upb_FieldDef_CType(ptr_); }
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Label label() const { return upb_FieldDef_Label(ptr_); }
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const char* name() const { return upb_FieldDef_Name(ptr_); }
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const char* json_name() const { return upb_FieldDef_JsonName(ptr_); }
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uint32_t number() const { return upb_FieldDef_Number(ptr_); }
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bool is_extension() const { return upb_FieldDef_IsExtension(ptr_); }
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// For non-string, non-submessage fields, this indicates whether binary
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// protobufs are encoded in packed or non-packed format.
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//
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// Note: this accessor reflects the fact that "packed" has different defaults
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// depending on whether the proto is proto2 or proto3.
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bool packed() const { return upb_FieldDef_IsPacked(ptr_); }
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// An integer that can be used as an index into an array of fields for
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// whatever message this field belongs to. Guaranteed to be less than
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// f->containing_type()->field_count(). May only be accessed once the def has
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// been finalized.
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uint32_t index() const { return upb_FieldDef_Index(ptr_); }
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// The MessageDef to which this field belongs.
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//
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// If this field has been added to a MessageDef, that message can be retrieved
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// directly (this is always the case for frozen FieldDefs).
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//
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// If the field has not yet been added to a MessageDef, you can set the name
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// of the containing type symbolically instead. This is mostly useful for
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// extensions, where the extension is declared separately from the message.
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MessageDefPtr containing_type() const;
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// The OneofDef to which this field belongs, or NULL if this field is not part
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// of a oneof.
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OneofDefPtr containing_oneof() const;
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// The field's type according to the enum in descriptor.proto. This is not
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// the same as UPB_TYPE_*, because it distinguishes between (for example)
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// INT32 and SINT32, whereas our "type" enum does not. This return of
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// descriptor_type() is a function of type(), integer_format(), and
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// is_tag_delimited().
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DescriptorType descriptor_type() const { return upb_FieldDef_Type(ptr_); }
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// Convenient field type tests.
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bool IsSubMessage() const { return upb_FieldDef_IsSubMessage(ptr_); }
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bool IsString() const { return upb_FieldDef_IsString(ptr_); }
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bool IsSequence() const { return upb_FieldDef_IsRepeated(ptr_); }
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bool IsPrimitive() const { return upb_FieldDef_IsPrimitive(ptr_); }
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bool IsMap() const { return upb_FieldDef_IsMap(ptr_); }
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MessageValue default_value() const { return upb_FieldDef_Default(ptr_); }
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// Returns the enum or submessage def for this field, if any. The field's
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// type must match (ie. you may only call enum_subdef() for fields where
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// type() == kUpb_CType_Enum).
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EnumDefPtr enum_subdef() const;
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MessageDefPtr message_subdef() const;
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private:
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const upb_FieldDef* ptr_;
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};
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// Class that represents a oneof.
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class OneofDefPtr {
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public:
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OneofDefPtr() : ptr_(nullptr) {}
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explicit OneofDefPtr(const upb_OneofDef* ptr) : ptr_(ptr) {}
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const upb_OneofDef* ptr() const { return ptr_; }
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explicit operator bool() const { return ptr_ != nullptr; }
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// Returns the MessageDef that contains this OneofDef.
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MessageDefPtr containing_type() const;
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// Returns the name of this oneof.
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const char* name() const { return upb_OneofDef_Name(ptr_); }
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// Returns the number of fields in the oneof.
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int field_count() const { return upb_OneofDef_FieldCount(ptr_); }
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FieldDefPtr field(int i) const {
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return FieldDefPtr(upb_OneofDef_Field(ptr_, i));
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}
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// Looks up by name.
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FieldDefPtr FindFieldByName(const char* name, size_t len) const {
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return FieldDefPtr(upb_OneofDef_LookupNameWithSize(ptr_, name, len));
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}
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FieldDefPtr FindFieldByName(const char* name) const {
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return FieldDefPtr(upb_OneofDef_LookupName(ptr_, name));
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}
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template <class T>
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FieldDefPtr FindFieldByName(const T& str) const {
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return FindFieldByName(str.c_str(), str.size());
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}
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// Looks up by tag number.
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FieldDefPtr FindFieldByNumber(uint32_t num) const {
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return FieldDefPtr(upb_OneofDef_LookupNumber(ptr_, num));
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}
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private:
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const upb_OneofDef* ptr_;
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};
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// Structure that describes a single .proto message type.
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class MessageDefPtr {
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public:
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MessageDefPtr() : ptr_(nullptr) {}
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explicit MessageDefPtr(const upb_MessageDef* ptr) : ptr_(ptr) {}
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const upb_MessageDef* ptr() const { return ptr_; }
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explicit operator bool() const { return ptr_ != nullptr; }
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FileDefPtr file() const;
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const char* full_name() const { return upb_MessageDef_FullName(ptr_); }
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const char* name() const { return upb_MessageDef_Name(ptr_); }
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// The number of fields that belong to the MessageDef.
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int field_count() const { return upb_MessageDef_FieldCount(ptr_); }
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FieldDefPtr field(int i) const {
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return FieldDefPtr(upb_MessageDef_Field(ptr_, i));
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}
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// The number of oneofs that belong to the MessageDef.
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int oneof_count() const { return upb_MessageDef_OneofCount(ptr_); }
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OneofDefPtr oneof(int i) const {
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return OneofDefPtr(upb_MessageDef_Oneof(ptr_, i));
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}
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upb_Syntax syntax() const { return upb_MessageDef_Syntax(ptr_); }
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// These return null pointers if the field is not found.
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FieldDefPtr FindFieldByNumber(uint32_t number) const {
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return FieldDefPtr(upb_MessageDef_FindFieldByNumberWithSize(ptr_, number));
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}
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FieldDefPtr FindFieldByName(const char* name, size_t len) const {
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return FieldDefPtr(upb_MessageDef_FindFieldByNameWithSize(ptr_, name, len));
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}
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FieldDefPtr FindFieldByName(const char* name) const {
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return FieldDefPtr(upb_MessageDef_FindFieldByName(ptr_, name));
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}
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template <class T>
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FieldDefPtr FindFieldByName(const T& str) const {
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return FindFieldByName(str.c_str(), str.size());
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}
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OneofDefPtr FindOneofByName(const char* name, size_t len) const {
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return OneofDefPtr(upb_MessageDef_FindOneofByNameWithSize(ptr_, name, len));
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}
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OneofDefPtr FindOneofByName(const char* name) const {
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return OneofDefPtr(upb_MessageDef_FindOneofByName(ptr_, name));
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}
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template <class T>
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OneofDefPtr FindOneofByName(const T& str) const {
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return FindOneofByName(str.c_str(), str.size());
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}
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// Is this message a map entry?
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bool mapentry() const { return upb_MessageDef_IsMapEntry(ptr_); }
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// Return the type of well known type message. kUpb_WellKnown_Unspecified for
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// non-well-known message.
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upb_WellKnown wellknowntype() const {
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return upb_MessageDef_WellKnownType(ptr_);
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}
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private:
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class FieldIter {
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public:
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explicit FieldIter(const upb_MessageDef* m, int i) : m_(m), i_(i) {}
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void operator++() { i_++; }
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FieldDefPtr operator*() {
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return FieldDefPtr(upb_MessageDef_Field(m_, i_));
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}
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bool operator!=(const FieldIter& other) { return i_ != other.i_; }
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bool operator==(const FieldIter& other) { return i_ == other.i_; }
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private:
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const upb_MessageDef* m_;
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int i_;
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};
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class FieldAccessor {
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public:
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explicit FieldAccessor(const upb_MessageDef* md) : md_(md) {}
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FieldIter begin() { return FieldIter(md_, 0); }
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FieldIter end() { return FieldIter(md_, upb_MessageDef_FieldCount(md_)); }
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private:
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const upb_MessageDef* md_;
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};
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class OneofIter {
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public:
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explicit OneofIter(const upb_MessageDef* m, int i) : m_(m), i_(i) {}
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void operator++() { i_++; }
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OneofDefPtr operator*() {
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return OneofDefPtr(upb_MessageDef_Oneof(m_, i_));
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}
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bool operator!=(const OneofIter& other) { return i_ != other.i_; }
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bool operator==(const OneofIter& other) { return i_ == other.i_; }
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private:
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const upb_MessageDef* m_;
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int i_;
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};
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class OneofAccessor {
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public:
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explicit OneofAccessor(const upb_MessageDef* md) : md_(md) {}
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OneofIter begin() { return OneofIter(md_, 0); }
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OneofIter end() { return OneofIter(md_, upb_MessageDef_OneofCount(md_)); }
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private:
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const upb_MessageDef* md_;
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};
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public:
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FieldAccessor fields() const { return FieldAccessor(ptr()); }
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OneofAccessor oneofs() const { return OneofAccessor(ptr()); }
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private:
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const upb_MessageDef* ptr_;
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};
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class EnumValDefPtr {
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public:
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EnumValDefPtr() : ptr_(nullptr) {}
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explicit EnumValDefPtr(const upb_EnumValueDef* ptr) : ptr_(ptr) {}
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int32_t number() const { return upb_EnumValueDef_Number(ptr_); }
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const char* full_name() const { return upb_EnumValueDef_FullName(ptr_); }
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const char* name() const { return upb_EnumValueDef_Name(ptr_); }
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private:
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const upb_EnumValueDef* ptr_;
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};
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class EnumDefPtr {
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public:
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EnumDefPtr() : ptr_(nullptr) {}
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explicit EnumDefPtr(const upb_EnumDef* ptr) : ptr_(ptr) {}
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const upb_EnumDef* ptr() const { return ptr_; }
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explicit operator bool() const { return ptr_ != nullptr; }
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const char* full_name() const { return upb_EnumDef_FullName(ptr_); }
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const char* name() const { return upb_EnumDef_Name(ptr_); }
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// The value that is used as the default when no field default is specified.
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// If not set explicitly, the first value that was added will be used.
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// The default value must be a member of the enum.
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// Requires that value_count() > 0.
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int32_t default_value() const { return upb_EnumDef_Default(ptr_); }
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// Returns the number of values currently defined in the enum. Note that
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// multiple names can refer to the same number, so this may be greater than
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// the total number of unique numbers.
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int value_count() const { return upb_EnumDef_ValueCount(ptr_); }
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// Lookups from name to integer, returning true if found.
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EnumValDefPtr FindValueByName(const char* name) const {
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return EnumValDefPtr(upb_EnumDef_FindValueByName(ptr_, name));
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}
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// Finds the name corresponding to the given number, or NULL if none was
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// found. If more than one name corresponds to this number, returns the
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// first one that was added.
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EnumValDefPtr FindValueByNumber(int32_t num) const {
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return EnumValDefPtr(upb_EnumDef_FindValueByNumber(ptr_, num));
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}
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private:
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const upb_EnumDef* ptr_;
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};
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// Class that represents a .proto file with some things defined in it.
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//
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// Many users won't care about FileDefs, but they are necessary if you want to
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// read the values of file-level options.
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class FileDefPtr {
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public:
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explicit FileDefPtr(const upb_FileDef* ptr) : ptr_(ptr) {}
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const upb_FileDef* ptr() const { return ptr_; }
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explicit operator bool() const { return ptr_ != nullptr; }
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// Get/set name of the file (eg. "foo/bar.proto").
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const char* name() const { return upb_FileDef_Name(ptr_); }
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// Package name for definitions inside the file (eg. "foo.bar").
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const char* package() const { return upb_FileDef_Package(ptr_); }
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// Syntax for the file. Defaults to proto2.
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upb_Syntax syntax() const { return upb_FileDef_Syntax(ptr_); }
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// Get the list of dependencies from the file. These are returned in the
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// order that they were added to the FileDefPtr.
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int dependency_count() const { return upb_FileDef_DependencyCount(ptr_); }
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const FileDefPtr dependency(int index) const {
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return FileDefPtr(upb_FileDef_Dependency(ptr_, index));
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}
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private:
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const upb_FileDef* ptr_;
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};
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// Non-const methods in upb::SymbolTable are NOT thread-safe.
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class SymbolTable {
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public:
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SymbolTable() : ptr_(upb_DefPool_New(), upb_DefPool_Free) {}
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explicit SymbolTable(upb_DefPool* s) : ptr_(s, upb_DefPool_Free) {}
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const upb_DefPool* ptr() const { return ptr_.get(); }
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upb_DefPool* ptr() { return ptr_.get(); }
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// Finds an entry in the symbol table with this exact name. If not found,
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// returns NULL.
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MessageDefPtr FindMessageByName(const char* sym) const {
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return MessageDefPtr(upb_DefPool_FindMessageByName(ptr_.get(), sym));
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}
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EnumDefPtr FindEnumByName(const char* sym) const {
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return EnumDefPtr(upb_DefPool_FindEnumByName(ptr_.get(), sym));
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}
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FileDefPtr FindFileByName(const char* name) const {
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return FileDefPtr(upb_DefPool_FindFileByName(ptr_.get(), name));
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}
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// TODO: iteration?
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// Adds the given serialized FileDescriptorProto to the pool.
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FileDefPtr AddFile(const google_protobuf_FileDescriptorProto* file_proto,
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Status* status) {
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return FileDefPtr(
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upb_DefPool_AddFile(ptr_.get(), file_proto, status->ptr()));
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}
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private:
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std::unique_ptr<upb_DefPool, decltype(&upb_DefPool_Free)> ptr_;
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};
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inline FileDefPtr MessageDefPtr::file() const {
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return FileDefPtr(upb_MessageDef_File(ptr_));
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}
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inline MessageDefPtr FieldDefPtr::message_subdef() const {
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return MessageDefPtr(upb_FieldDef_MessageSubDef(ptr_));
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}
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inline MessageDefPtr FieldDefPtr::containing_type() const {
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return MessageDefPtr(upb_FieldDef_ContainingType(ptr_));
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}
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inline MessageDefPtr OneofDefPtr::containing_type() const {
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return MessageDefPtr(upb_OneofDef_ContainingType(ptr_));
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}
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inline OneofDefPtr FieldDefPtr::containing_oneof() const {
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return OneofDefPtr(upb_FieldDef_ContainingOneof(ptr_));
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}
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inline EnumDefPtr FieldDefPtr::enum_subdef() const {
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return EnumDefPtr(upb_FieldDef_EnumSubDef(ptr_));
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}
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} // namespace upb
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#endif // UPB_DEF_HPP_
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